A machine for replacing used transmission or power steering fluid in a vehicle with new transmission or power steering fluid includes a frame having a housing. The machine includes a pair of service hoses that extend from the machine and connect to the vehicle for placing the machine in the fluid flow. New, used, and axillary fluid tanks are provided. A pump and a manifold are associated with two of the tanks. The pumps provide for the selective withdraw or insertion of fluid into or out of the tanks. A display on the housing presents an operator of the machine with various tasks or options the machine can perform. A processor controls activation of the pumps and other electrical components based on inputs received by the display. Scales are provided under one or more of the tanks for determining the amount of fluid going into and out of the tanks during the exchange process.

Embodiments of the present disclosure include a method including receiving, by a data processor of a fuel dispenser, first data characterizing one or more applications to be displayed via a display of the fuel dispenser during a first application session. The first data including a configuration file including an application programming interface (API) uniform resource locator (URL) associated with a first remote server from which modified application data associated with the one or more applications may be received by the data processor by accessing the API URL. Embodiments may also include displaying, based on the first data, a first instance of at least one application in at least one display frame of the display, the at least one application configured to receive user inputs from a user of the fuel dispenser. Related apparatus, systems, and articles are also described.

Embodiments of the present disclosure include a method including receiving, by a data processor of a fuel dispenser, first data characterizing one or more applications to be displayed via a display of the fuel dispenser during a first application session. The first data including a configuration file including an application programming interface (API) uniform resource locator (URL) associated with a first remote server from which modified application data associated with the one or more applications may be received by the data processor by accessing the API URL. Embodiments may also include displaying, based on the first data, a first instance of at least one application in at least one display frame of the display, the at least one application configured to receive user inputs from a user of the fuel dispenser. Related apparatus, systems, and articles are also described.

A distribution station includes an adjustable feed network that connects first and second pumps with first and second manifolds. The network is switchable between first and second configurations. In the first configuration a first pump is fluidly connected with the first manifold and fluidly disconnected from the second manifold. Concurrently, the second pump is fluidly connected to the second manifold and is fluidly disconnected from the first manifold. In the second configuration the first pump is fluidly connected with the second manifold and fluidly disconnected from the first manifold, and the second pump is fluidly disconnected from the first and second manifolds.

A distribution station includes an adjustable feed network that connects first and second pumps with first and second manifolds. The network is switchable between first and second configurations. In the first configuration a first pump is fluidly connected with the first manifold and fluidly disconnected from the second manifold. Concurrently, the second pump is fluidly connected to the second manifold and is fluidly disconnected from the first manifold. In the second configuration the first pump is fluidly connected with the second manifold and fluidly disconnected from the first manifold, and the second pump is fluidly disconnected from the first and second manifolds.

A system to display liquid levels in vehicle auxiliary tanks is disclosed. The vehicle includes a plurality of auxiliary tanks disposed on a vehicle cargo bed. The vehicle further includes a first detection unit to detect a user activity associated with the plurality of auxiliary tanks, and a second detection unit to measure a vehicle weight. The vehicle further includes a control unit to identify a first auxiliary tank, from the plurality of auxiliary tanks, which is associated with the user activity. The control unit further determines a vehicle weight change based on the measurement of weight and an initial vehicle weight. In addition, the control unit correlates first auxiliary tank identification and weight change determination, and calculates a liquid level change associated with the first auxiliary tank. Responsive to the calculation, the control unit displays the liquid level change on a user interface.

Various devices and systems for display surface temperature reduction are provided. For example, such a device can comprise a vented display having a display assembly configured to generate and project images, a backlight assembly configured to generate light to illuminate the display assembly, and an air gap that separates the display assembly from the backlight assembly and that is configured to permit a flow of air through the air gap to thereby facilitate the transfer of heat from the display assembly to the air flowing through the air gap to cool the display. For example, such a system can comprise a convective cooling system that is configured to direct a flow of cooling air across an exterior surface of a display and thereby lower the temperature of the exterior surface.

This application is directed to a consumer liquid necessities distribution system. The system includes piping networks to deliver the various desired liquid necessities from a central bulk liquid storage station directly to the consumer in a trackable manner. The liquid distribution system includes a central bulk storage station, a piping network, a central data receiving and processing server, and a dispensing system for dispensing the liquid through one or more dispensing points.

Apparatus (2) for monitoring a set of fuel dispensers (10.sub.1, 10.sub.2, . . . 10.sub.N) of filing stations (1.sub.1, 1.sub.2, . . . 1.sub.M), for providing fuel stored in tanks (11) to vehicles, may include interfaces (21) to receive measurements from output probes (30.sub.1, 30.sub.2, . . . 30.sub.N) measuring fuel flowing through nozzles (11.sub.1, 11.sub.2, . . . 10.sub.N); measurements from amount probes (31) measuring a stored amount contained within the tank; and receipt data of fuel delivered; a memory (22) to store at least part of said measurements, and a computing means (23). The computing means may be configured for: determining two subsequent fuel deliveries for which stored amounts measured at the start of said deliveries are substantially equals; determining a suspicious situation by comparing said receipt data corresponding to said subsequent fuel deliveries with the sum of measurements provided by said output probes during the time period between these two subsequent deliveries; and triggering an action when a suspicious situation is determined.

A system includes a processor configured to wirelessly instruct fuel dispensation initiation over a direct wireless connection between a vehicle and a refueling truck, responsive to a wireless request made by the refueling truck, the request including a valid token and a refueling truck MAC ID with which the wireless connection is established.